dmx.duration = ddmx.duration;
dmx.tb_den = ddmx.tb_den;
std::mem::swap(&mut dmx.pal, &mut ddmx.pal);
-
+
Ok(size)
}
let _mtime = br.read_u32be()?;
let track_id = br.read_u32be()?;
br.read_skip(4)?;
- let _duration = br.read_u32be()?;
+ let duration = br.read_u32be()?;
br.read_skip(8)?;
let _layer = br.read_u16be()?;
let _alt_group = br.read_u16be()?;
track.width = width >> 16;
track.height = height >> 16;
track.track_id = track_id;
+ track.duration = duration;
track.tkhd_found = true;
Ok(KNOWN_TKHD_SIZE)
let _comp_flags = br.read_u32be()?;
let _comp_flags_mask = br.read_u32be()?;
- if comp_type == mktag!(b"mhlr") {
+ if comp_type == mktag!(b"mhlr") || comp_type == 0 {
if comp_subtype == mktag!(b"vide") {
track.stream_type = StreamType::Video;
} else if comp_subtype == mktag!(b"soun") {
const STBL_CHUNK_HANDLERS: &[TrackChunkHandler] = &[
TrackChunkHandler { ctype: mktag!(b"stsd"), parse: read_stsd },
- TrackChunkHandler { ctype: mktag!(b"stts"), parse: skip_chunk },
+ TrackChunkHandler { ctype: mktag!(b"stts"), parse: read_stts },
TrackChunkHandler { ctype: mktag!(b"stss"), parse: read_stss },
TrackChunkHandler { ctype: mktag!(b"stsc"), parse: read_stsc },
TrackChunkHandler { ctype: mktag!(b"stsz"), parse: read_stsz },
fn parse_audio_edata(br: &mut ByteReader, start_pos: u64, size: u64) -> DemuxerResult<Option<Vec<u8>>> {
let read_part = br.tell() - start_pos;
if read_part + 8 < size {
+ let mut buf = [0; 8];
+ br.peek_buf(&mut buf)?;
+ if &buf[4..8] != b"wave" {
+ let mut buf = vec![0; (size - read_part) as usize];
+ br.read_buf(&mut buf)?;
+ return Ok(Some(buf));
+ }
+
let csize = br.read_u32be()? as u64;
let ctag = br.read_u32be()?;
validate!(read_part + csize <= size);
let packet_size = br.read_u16be()? as usize;
validate!(packet_size == 0);
let sample_rate = br.read_u32be()?;
- validate!(sample_rate > 0);
+ validate!(sample_rate > (1 << 16));
let cname = if let Some(name) = find_codec_from_mov_audio_fourcc(&fcc) {
name
} else if let (true, Some(name)) = ((fcc[0] == b'm' && fcc[1] == b's'), find_codec_from_wav_twocc(u16::from(fcc[2]) * 256 + u16::from(fcc[3]))) {
} else {
"unknown"
};
-//todo adjust format for various PCM kinds
- let soniton = NASoniton::new(sample_size as u8, SONITON_FLAG_SIGNED | SONITON_FLAG_BE);
+ let mut soniton = NASoniton::new(sample_size as u8, SONITON_FLAG_SIGNED | SONITON_FLAG_BE);
+ if &fcc == b"raw " && sample_size == 8 {
+ soniton.signed = false;
+ }
let block_align = 1;
if sver == 1 {
let samples_per_packet = br.read_u32be()?;
let _bytes_per_sample = br.read_u32be()?;
track.bsize = bytes_per_frame as usize;
track.frame_samples = samples_per_packet as usize;
+ track.tb_num = samples_per_packet;
} else {
- track.bsize = sample_size as usize;
+ track.bsize = (sample_size / 8) as usize;
}
+ track.tb_den = sample_rate >> 16;
+ track.raw_audio = match &fcc {
+ b"NONE" | b"raw " | b"twos" | b"sowt" |
+ b"in24" | b"in32" | b"fl32" | b"fl64" |
+ b"ima4" | b"ms\x00\x02" | b"ms\x00\x21" |
+ b"alaw" | b"ulaw" |
+ b"MAC3" | b"MAC6" => true,
+ _ => false,
+ };
let ahdr = NAAudioInfo::new(sample_rate >> 16, nchannels as u8, soniton, block_align);
let edata = parse_audio_edata(br, start_pos, size)?;
codec_info = NACodecInfo::new(cname, NACodecTypeInfo::Audio(ahdr), edata);
};
let read_size = br.tell() - start_pos;
validate!(read_size <= size);
- track.stream = Some(NAStream::new(track.stream_type, track.track_no, codec_info, 1, track.tb_den));
+ track.stream = Some(NAStream::new(track.stream_type, track.track_no, codec_info, track.tb_num, track.tb_den, u64::from(track.duration)));
track.stsd_found = true;
Ok(read_size)
}
+fn read_stts(track: &mut Track, br: &mut ByteReader, size: u64) -> DemuxerResult<u64> {
+ validate!(size >= 8);
+ let start_pos = br.tell();
+ let version = br.read_byte()?;
+ validate!(version == 0);
+ let _flags = br.read_u24be()?;
+ let entries = br.read_u32be()? as usize;
+ validate!(entries as u64 <= (size - 8) / 8);
+ if entries == 0 {
+ } else if entries == 1 {
+ let _count = br.read_u32be()?;
+ let tb_num = br.read_u32be()?;
+ if let Some(ref mut stream) = track.stream {
+ let tb_den = stream.tb_den;
+ let (tb_num, tb_den) = reduce_timebase(tb_num * stream.tb_num, tb_den);
+ stream.duration /= u64::from(stream.tb_den / tb_den);
+ stream.tb_num = tb_num;
+ stream.tb_den = tb_den;
+ track.tb_num = tb_num;
+ track.tb_den = tb_den;
+ }
+ } else {
+ track.time_to_sample.truncate(0);
+ track.time_to_sample.reserve(entries);
+ for _ in 0..entries {
+ let count = br.read_u32be()?;
+ let mult = br.read_u32be()?;
+ track.time_to_sample.push((count, mult));
+ }
+ }
+ let read_size = br.tell() - start_pos;
+ validate!(read_size <= size);
+ Ok(read_size)
+}
+
fn read_stss(track: &mut Track, br: &mut ByteReader, size: u64) -> DemuxerResult<u64> {
let version = br.read_byte()?;
validate!(version == 0);
track_id: u32,
track_str_id: usize,
track_no: u32,
+ tb_num: u32,
tb_den: u32,
+ raw_audio: bool,
+ raw_apos: u64,
+ duration: u32,
depth: u8,
tkhd_found: bool,
stsd_found: bool,
keyframes: Vec<u32>,
chunk_sizes: Vec<u32>,
chunk_offsets: Vec<u64>,
+ time_to_sample: Vec<(u32, u32)>,
sample_map: Vec<(u32, u32)>,
sample_size: u32,
frame_samples: usize,
samples_left: usize,
last_offset: u64,
pal: Option<Arc<[u8; 1024]>>,
+ timesearch: TimeSearcher,
+}
+
+#[derive(Default)]
+struct TimeSearcher {
+ idx: usize,
+ base: u64,
+ sbase: u32,
+ cur_len: u32,
+ cur_mul: u32,
+}
+
+impl TimeSearcher {
+ fn new() -> Self { Self::default() }
+ fn reset(&mut self) {
+ *self = Self::default();
+ }
+ fn map_time(&mut self, sample: u32, tts: &Vec<(u32, u32)>) -> u64 {
+ if tts.is_empty() {
+ u64::from(sample)
+ } else if sample >= self.sbase {
+ let mut sample = sample - self.sbase;
+ if self.idx == 0 {
+ let (cur_len, cur_mul) = tts[0];
+ self.cur_len = cur_len;
+ self.cur_mul = cur_mul;
+ self.idx += 1;
+ }
+ while self.idx < tts.len() && sample > self.cur_len {
+ sample -= self.cur_len;
+ self.sbase += self.cur_len;
+ self.base += u64::from(self.cur_len) * u64::from(self.cur_mul);
+ self.cur_len = tts[self.idx].0;
+ self.cur_mul = tts[self.idx].1;
+ self.idx += 1;
+ }
+ self.base + u64::from(sample) * u64::from(self.cur_mul)
+ } else {
+ self.reset();
+ self.map_time(sample, tts)
+ }
+ }
}
impl Track {
track_id: 0,
track_str_id: 0,
track_no,
+ tb_num: 1,
tb_den,
+ raw_audio: false,
+ raw_apos: 0,
+ duration: 0,
stream_type: StreamType::None,
width: 0,
height: 0,
keyframes: Vec::new(),
chunk_sizes: Vec::new(),
chunk_offsets: Vec::new(),
+ time_to_sample: Vec::new(),
sample_map: Vec::new(),
sample_size: 0,
frame_samples: 0,
samples_left: 0,
last_offset: 0,
pal: None,
+ timesearch: TimeSearcher::new(),
}
}
read_chunk_list!(track; "trak", read_trak, TRAK_CHUNK_HANDLERS);
if !self.keyframes.is_empty() {
seek_index.mode = SeekIndexMode::Present;
}
+ let mut tsearch = TimeSearcher::new();
for kf_time in self.keyframes.iter() {
- let pts = u64::from(*kf_time - 1);
- let time = NATimeInfo::ts_to_time(pts, 1000, 1, self.tb_den);
- let idx = (*kf_time - 1) as usize;
- if idx < self.chunk_offsets.len() {
- let pos = self.chunk_offsets[idx];
- seek_index.add_entry(self.track_no as u32, SeekEntry { time, pts, pos });
- }
+ let pts = tsearch.map_time(*kf_time - 1, &self.time_to_sample);
+ let time = NATimeInfo::ts_to_time(pts, 1000, self.tb_num, self.tb_den);
+ seek_index.add_entry(self.track_no as u32, SeekEntry { time, pts: u64::from(*kf_time - 1), pos: 0 });
}
}
fn calculate_chunk_size(&self, nsamp: usize) -> usize {
}
}
fn get_next_chunk(&mut self) -> Option<(NATimeInfo, u64, usize)> {
- let pts = NATimeInfo::new(Some(self.cur_sample as u64), None, None, 1, self.tb_den);
+ let pts_val = self.timesearch.map_time(self.cur_sample as u32, &self.time_to_sample);
+ let mut pts = NATimeInfo::new(Some(pts_val), None, None, self.tb_num, self.tb_den);
//todo dts decoding
if self.chunk_offsets.len() == self.chunk_sizes.len() { // simple one-to-one mapping
if self.cur_sample >= self.chunk_sizes.len() {
self.samples_left -= 1;
} else if self.frame_samples != 0 && self.bsize != 0 {
let nblocks = size / self.bsize;
+ if self.raw_audio {
+ pts.pts = Some(self.raw_apos);
+ pts.duration = Some(nblocks as u64);
+ self.raw_apos += nblocks as u64;
+ }
if nblocks > 0 {
let consumed = (nblocks * self.frame_samples).min(self.samples_left);
self.samples_left -= consumed;
} else {
self.samples_left = 0;
}
+ } else if !self.raw_audio {
+ self.samples_left -= 1;
} else {
- self.samples_left = 0;
+ const BLOCK_SAMPLES: usize = 1024 * 6; // should be multiple of 64 and 6 to fit both IMA ADPCM and MACE 6:1 blocks
+ let max_size = self.calculate_chunk_size(BLOCK_SAMPLES);
+ let cur_size = self.calculate_chunk_size(self.samples_left);
+ let add_off = (size - cur_size) as u64;
+ let dsize = cur_size.min(max_size);
+ if self.samples_left >= BLOCK_SAMPLES {
+ self.cur_sample += BLOCK_SAMPLES;
+ self.samples_left -= BLOCK_SAMPLES;
+ self.last_offset -= size as u64;
+ } else {
+ self.cur_sample += self.samples_left;
+ self.samples_left = 0;
+ }
+ return Some((pts, offset + add_off, dsize));
}
self.cur_sample += 1;
Some((pts, offset, size))
self.bsize
}
}
- fn seek(&mut self, pts: u64) {
+ fn seek(&mut self, pts: u64, tpoint: NATimePoint) -> DemuxerResult<()> {
self.cur_sample = pts as usize;
self.samples_left = 0;
if self.stream_type == StreamType::Audio {
- self.cur_chunk = self.cur_sample;
+ if let NATimePoint::Milliseconds(ms) = tpoint {
+ let exp_pts = NATimeInfo::time_to_ts(ms, 1000, self.tb_num, self.tb_den);
+ if self.raw_audio {
+ if self.frame_samples != 0 {
+ self.raw_apos = exp_pts / (self.frame_samples as u64);
+ let mut apos = 0;
+ self.cur_sample = 0;
+ self.cur_chunk = 0;
+ let mut cmap = self.sample_map.iter();
+ let mut cur_samps = 0;
+ let (mut next_idx, mut next_samples) = cmap.next().unwrap();
+ loop {
+ if self.cur_chunk + 1 == next_idx as usize {
+ self.samples_left = cur_samps;
+ cur_samps = next_samples as usize;
+ if let Some((new_idx, new_samples)) = cmap.next() {
+ next_idx = *new_idx;
+ next_samples = *new_samples;
+ }
+ }
+ self.raw_apos = apos;
+ apos += (cur_samps / self.frame_samples) as u64;
+ if apos > exp_pts {
+ if cur_samps == self.frame_samples || apos > exp_pts + 1 {
+ if self.cur_chunk >= self.chunk_offsets.len() {
+ return Err(DemuxerError::SeekError);
+ }
+ self.last_offset = self.chunk_offsets[self.cur_chunk];
+ break;
+ }
+ }
+ self.cur_chunk += 1;
+ }
+ self.samples_left = cur_samps;
+ self.cur_chunk += 1;
+ } else {
+ self.raw_apos = exp_pts;
+ self.cur_sample = exp_pts as usize;
+ let mut csamp = 0;
+ self.cur_chunk = 0;
+ let mut cmap = self.sample_map.iter();
+ let mut cur_samps = 0;
+ let (mut next_idx, mut next_samples) = cmap.next().unwrap();
+ loop {
+ if self.cur_chunk + 1 == next_idx as usize {
+ self.samples_left = cur_samps;
+ cur_samps = next_samples as usize;
+ if let Some((new_idx, new_samples)) = cmap.next() {
+ next_idx = *new_idx;
+ next_samples = *new_samples;
+ }
+ }
+ csamp += cur_samps;
+ if csamp > self.cur_sample {
+ if self.cur_chunk >= self.chunk_offsets.len() {
+ return Err(DemuxerError::SeekError);
+ }
+ self.last_offset = self.chunk_offsets[self.cur_chunk];
+ break;
+ }
+ self.cur_chunk += 1;
+ }
+ self.samples_left = csamp - self.cur_sample;
+ self.cur_chunk += 1;
+ }
+ } else {
+ self.cur_chunk = self.cur_sample;
+ }
+ } else {
+ self.cur_chunk = self.cur_sample;
+ }
} else if self.chunk_offsets.len() != self.chunk_sizes.len() && !self.sample_map.is_empty() {
let mut csamp = 0;
self.cur_chunk = 0;
let mut cur_samps = 0;
let (mut next_idx, mut next_samples) = cmap.next().unwrap();
loop {
- if self.cur_chunk == next_idx as usize {
+ if self.cur_chunk + 1 == next_idx as usize {
self.samples_left = cur_samps;
cur_samps = next_samples as usize;
if let Some((new_idx, new_samples)) = cmap.next() {
}
csamp += cur_samps;
if csamp >= self.cur_sample {
+ if self.cur_chunk >= self.chunk_offsets.len() {
+ return Err(DemuxerError::SeekError);
+ }
self.last_offset = self.chunk_offsets[self.cur_chunk];
break;
}
self.cur_chunk += 1;
}
csamp -= cur_samps;
- for sample_no in csamp..self.cur_chunk {
+ for sample_no in csamp..self.cur_sample {
self.last_offset += self.get_size(sample_no) as u64;
}
- self.samples_left = self.cur_sample - csamp - cur_samps;
+ self.samples_left = csamp + cur_samps - self.cur_sample;
+ self.cur_chunk += 1;
}
+ Ok(())
}
}
Err(DemuxerError::EOF)
}
- fn seek(&mut self, time: u64, seek_index: &SeekIndex) -> DemuxerResult<()> {
+ fn seek(&mut self, time: NATimePoint, seek_index: &SeekIndex) -> DemuxerResult<()> {
let ret = seek_index.find_pos(time);
if ret.is_none() {
return Err(DemuxerError::SeekError);
}
let seek_info = ret.unwrap();
for track in self.tracks.iter_mut() {
- track.seek(seek_info.pts);
+ track.seek(seek_info.pts, time)?;
}
Ok(())
}
+ fn get_duration(&self) -> u64 {
+ if self.tb_den != 0 {
+ u64::from(self.duration) * 1000 / u64::from(self.tb_den)
+ } else {
+ 0
+ }
+ }
}
impl<'a> NAOptionHandler for MOVDemuxer<'a> {